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US20020170361A1 - Portable device for testing the shear response of a material in response to a repetitive applied force - Google Patents

Portable device for testing the shear response of a material in response to a repetitive applied force
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Publication number
US20020170361A1
US20020170361A1US09/862,054US86205401AUS2002170361A1US 20020170361 A1US20020170361 A1US 20020170361A1US 86205401 AUS86205401 AUS 86205401AUS 2002170361 A1US2002170361 A1US 2002170361A1
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specimen
clamp
actuator
holding means
recited
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US09/862,054
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US6598486B2 (en
Inventor
Kent Vilendrer
Troy Nickel
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TA Instruments Waters LLC
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EnduraTEC Systems Corp
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Assigned to ENDURATEC SYSTEMS CORP.reassignmentENDURATEC SYSTEMS CORP.ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: NICKEL, TROY, VILENDRER, KENT
Publication of US20020170361A1publicationCriticalpatent/US20020170361A1/en
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Assigned to BOSE CORPORATIONreassignmentBOSE CORPORATIONASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: ENDURATEC SYSTEMS CORPROATION
Assigned to TA INSTRUMENTS-WATERS L.L.C.reassignmentTA INSTRUMENTS-WATERS L.L.C.ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: BOSE CORPORATION
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Abstract

A portable device for measuring the shear properties of a material specimen under applied dynamic circumferential forces against the specimen perpendicular to a longitudinal axis of said specimen. The device may further apply a dynamic force against an end of the specimen. The device includes clamps that hold the specimen at its proximal and distal end, wherein the circumferential force applied to the specimen is affectively applied between the two clamps. The temperature of the specimen may be held constant by controlling the temperature within an environmental chamber through the use of a closed loop PID control system. The force against the specimen is dynamically loaded by a dynamic load reaction frame consisting of a shear load actuator and load reaction structure. A microprocessor-based controller operates the dynamic load reaction frame under closed loop control. The microprocessor-based controller may be servo controlled, utilizing feedback from either a load transducer or either or both of two linear displacement transducers.

Description

Claims (17)

What is claimed is:
1. A device used for testing a response of a material specimen to shear forces applied to the material specimen, said device comprising:
a base;
a first clamp attached to said base for clamping about a perimeter of the specimen in proximity to a distal end of the specimen;
a second clamp for clamping about the perimeter of the specimen in proximity to a proximal end of the specimen; and
flexures having a proximal and distal end, said proximal end of said flexures being attached to the second clamp at the proximal end of specimen, and said distal end of said flexures being attached to the first clamp at the distal end, whereby a force to the second clamp causes the proximal end of the flexures and the second clamp to move while the first clamp remains stationary, thereby applying a circumferential force against the specimen perpendicular to a longitudinal axis of said specimen.
2. The device as recited inclaim 1, further comprising an actuator attached to said second clamp, wherein said actuator applies the force to said second clamp to thereby apply said circumferential force against the specimen.
3. The device as recited inclaim 1, further comprising an actuator coupled to said first clamp, wherein said actuator applies a compression force against an end of said specimen.
4. The device as recited inclaim 1, further comprising linear displacement transducers coupled to said second clamp to thereby measure the relative displacement between the first and second clamp when the circumferential force is applied to the specimen.
5. The device as recited inclaim 1, further including means for controlling a temperature of the specimen.
6. The device as recited inclaim 2, further comprising a control means for adjusting the force applied by the actuator to said second clamp and for monitoring a resulting displacement between the first and second clamps.
7. A device used for testing a response of a material specimen to shear forces applied to the material specimen, said device comprising:
a base;
holding means for clamping about a perimeter of the specimen in proximity to a distal end of the specimen and further clamping about the perimeter of the specimen in proximity to a proximal end of the specimen, wherein distal end of the specimen is held in a fixed position;
flexures having a proximal and distal end, said proximal end of said flexures being attached to said holding means between said proximal and distal ends, whereby a force to the proximal end of said holding means causes the proximal end of the flexures to move while the distal end remains stationary, thereby applying a circumferential force against the specimen perpendicular to a longitudinal axis of said specimen.
8. The device as recited inclaim 7, further comprising an actuator attached to a proximal end of said holding means, wherein said actuator applies the force to said holding means to thereby apply said circumferential force against the specimen.
9. The device as recited inclaim 7, further comprising an actuator coupled to a distal end of said holding means, wherein said actuator applies a compression force against an end of said specimen.
10. The device as recited inclaim 7, further comprising linear displacement transducers coupled to said proximal end of said holding means to thereby measure the relative displacement between opposite ends of said holding means when the circumferential force is applied to the specimen.
11. The device as recited inclaim 7, further including means for controlling a temperature of the specimen.
12. The device as recited inclaim 8, further comprising a control means for adjusting the force applied by the actuator to said holding means and for monitoring a resulting displacement between opposite ends of said holding means.
13. A device used for testing a response of a material specimen to shear forces applied to the material specimen, said device comprising:
a base;
holding means for clamping about a perimeter of the specimen in proximity to a distal end of the specimen and further clamping about the perimeter of the specimen in proximity to a proximal end of the specimen, wherein distal end of the specimen is held in a fixed position;
flexures having a proximal and distal end, said proximal end of said flexures being attached to said holding means between said proximal and distal ends; and
an actuator, attached to a proximal end of said holding means, that applies a force to the proximal end of said holding means, whereby the proximal end of the flexures move while the distal end remains stationary, thereby applying a circumferential force against the specimen perpendicular to a longitudinal axis of said specimen.
14. The device as recited inclaim 13, further comprising an actuator coupled to a distal end of said holding means, wherein said actuator applies a compression force against an end of said specimen.
15. The device as recited inclaim 13, further comprising linear displacement transducers coupled to said proximal end of said holding means to thereby measure the relative displacement between opposite ends of said holding means when the circumferential force is applied to the specimen.
16. The device as recited inclaim 13, further including means for controlling a temperature of the specimen.
17. The device as recited inclaim 13, further comprising a control means for adjusting the force applied by the actuator to said holding means and for monitoring a resulting displacement between opposite ends of said holding means.
US09/862,0542001-05-212001-05-21Portable device for testing the shear response of a material in response to a repetitive applied forceExpired - LifetimeUS6598486B2 (en)

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US09/862,054US6598486B2 (en)2001-05-212001-05-21Portable device for testing the shear response of a material in response to a repetitive applied force

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US20070169573A1 (en)*2006-01-132007-07-26Mts Systems CorporationOrthopedic simulator with fluid concentration maintenance arrangement for controlling fluid concentration of specimen baths
US20070169566A1 (en)*2006-01-132007-07-26Mts Systems CorporationIntegrated central manifold for orthopedic simulator
US20070169561A1 (en)*2006-01-132007-07-26Mts Systems CorporationMechanism arrangement for orthopedic simulator
US20070172394A1 (en)*2006-01-202007-07-26Schulz Bradley DSpecimen containment module for orthopedic simulator
US20070260373A1 (en)*2006-05-082007-11-08Langer William JDynamic vehicle durability testing and simulation
US20070275355A1 (en)*2006-05-082007-11-29Langer William JIntegration and supervision for modeled and mechanical vehicle testing and simulation
US7421906B2 (en)*2005-07-262008-09-09Airbus FranceApparatus for testing a fuselage structure having a longitudinal and circumferential curvature
US7426871B2 (en)*2005-07-262008-09-23Airbus FranceApparatus for testing a fuselage structure having a longitudinal and circumferential curvature
US20080271542A1 (en)*2003-12-052008-11-06Mts Systems CorporationMethod to extend testing through integration of measured responses with virtual models
US20080275681A1 (en)*2007-05-042008-11-06Langer William JMethod and system for vehicle damper system evaluation and tuning with loading system and vehicle model
US20090012763A1 (en)*2007-05-042009-01-08Mts Systems CorporationMethod and system for tire evaluation and tuning with loading system and vehicle model
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US20100011874A1 (en)*2008-07-192010-01-21The Boeing CompanyMethod and apparatus for testing attachment joints
US7770446B2 (en)2006-01-132010-08-10Mts Systems CorporationOrthopedic simulator with temperature controller arrangement for controlling temperature of specimen baths
US7913573B2 (en)2006-01-132011-03-29Mts Systems CorporationOrthopedic simulator with a multi-axis slide table assembly
GB2478134A (en)*2010-02-252011-08-31Micro Materials LtdProbe heating method and apparatus for testing materials
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CN104931359A (en)*2015-06-262015-09-23中国科学院地质与地球物理研究所Large-scale earthwork shear strength tester
CN104931360A (en)*2015-06-262015-09-23中国科学院地质与地球物理研究所Equipment for testing direct shear of large-scale earthworks under dynamic load
CN105115893A (en)*2015-09-232015-12-02长沙理工大学Steel bridge deck and pavement interface shear test method and device
US9477793B2 (en)2008-10-022016-10-25Mts Systems CorporationMethod and systems for off-line control for simulation of coupled hybrid dynamic systems
US20170328824A1 (en)*2015-04-292017-11-16Shenzhen UniversityHandheld constant-stiffness ring shear apparatus and method for using same
US10061278B2 (en)2013-09-092018-08-28Mts Systems CorporationMethod of off-line hybrid system assessment for test monitoring and modification
CN109115633A (en)*2018-10-262019-01-01兰州理工大学A kind of asphalt layer room machine frictional strength test device and method
US10371601B2 (en)2013-09-092019-08-06Mts Systems CorporationMethods and systems for testing coupled hybrid dynamic systems
CN110208108A (en)*2019-04-242019-09-06南京航空航天大学A kind of single clamp suitable for high temperature declines dynamic fatigue experimental device
CN111595674A (en)*2020-05-222020-08-28合肥工业大学Device capable of loading various stress fields in sample and loading method
CN113295550A (en)*2021-02-082021-08-24四川大学Testing machine for mechanical testing of disturbed rock mass under deep ground environment
CN113484107A (en)*2021-05-202021-10-08扬州大学Special cutting device of Overlay test piece
CN118734563A (en)*2024-06-182024-10-01华中科技大学 A prediction method for asphalt fatigue life at different frequencies
WO2025111309A1 (en)*2023-11-212025-05-30Hyphen InnovationsPortable accelerated fatigue testing system

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US20080271542A1 (en)*2003-12-052008-11-06Mts Systems CorporationMethod to extend testing through integration of measured responses with virtual models
US7383738B2 (en)*2003-12-052008-06-10Mts Systems CorporationMethod to extend testing through integration of measured responses virtual models
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US7421906B2 (en)*2005-07-262008-09-09Airbus FranceApparatus for testing a fuselage structure having a longitudinal and circumferential curvature
US7426871B2 (en)*2005-07-262008-09-23Airbus FranceApparatus for testing a fuselage structure having a longitudinal and circumferential curvature
US8156824B2 (en)2006-01-132012-04-17Mts Systems CorporationMechanism arrangement for orthopedic simulator
US20070169561A1 (en)*2006-01-132007-07-26Mts Systems CorporationMechanism arrangement for orthopedic simulator
US20070169566A1 (en)*2006-01-132007-07-26Mts Systems CorporationIntegrated central manifold for orthopedic simulator
US20070169573A1 (en)*2006-01-132007-07-26Mts Systems CorporationOrthopedic simulator with fluid concentration maintenance arrangement for controlling fluid concentration of specimen baths
US7913573B2 (en)2006-01-132011-03-29Mts Systems CorporationOrthopedic simulator with a multi-axis slide table assembly
US7779708B2 (en)2006-01-132010-08-24Mts Systems CorporationOrthopedic simulator with fluid concentration maintenance arrangement for controlling fluid concentration of specimen baths
US20070169562A1 (en)*2006-01-132007-07-26Mts Systems CorporationOrthopedic simulator with integral load actuators
US7770446B2 (en)2006-01-132010-08-10Mts Systems CorporationOrthopedic simulator with temperature controller arrangement for controlling temperature of specimen baths
US7762147B2 (en)2006-01-132010-07-27Mts Systems CorporationOrthopedic simulator with integral load actuators
US20070172394A1 (en)*2006-01-202007-07-26Schulz Bradley DSpecimen containment module for orthopedic simulator
US7654150B2 (en)2006-01-202010-02-02Mts Systems CorporationSpecimen containment module for orthopedic simulator
US20070260373A1 (en)*2006-05-082007-11-08Langer William JDynamic vehicle durability testing and simulation
US20070275355A1 (en)*2006-05-082007-11-29Langer William JIntegration and supervision for modeled and mechanical vehicle testing and simulation
US20090012763A1 (en)*2007-05-042009-01-08Mts Systems CorporationMethod and system for tire evaluation and tuning with loading system and vehicle model
US20080275681A1 (en)*2007-05-042008-11-06Langer William JMethod and system for vehicle damper system evaluation and tuning with loading system and vehicle model
US20090260449A1 (en)*2008-04-212009-10-22Airbus Deutschland GmbhDevice for test loading
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US20100011874A1 (en)*2008-07-192010-01-21The Boeing CompanyMethod and apparatus for testing attachment joints
US8621935B2 (en)2008-07-192014-01-07The Boeing CompanyMethod and apparatus for testing attachment joints
US8286499B2 (en)2008-07-192012-10-16The Boeing CompanyMethod and apparatus for testing attachment joints
US10339265B2 (en)2008-10-022019-07-02Mts Systems CorporationMethod and systems for off-line control for simulation of coupled hybrid dynamic systems
US8135556B2 (en)2008-10-022012-03-13Mts Systems CorporationMethods and systems for off-line control for simulation of coupled hybrid dynamic systems
US9477793B2 (en)2008-10-022016-10-25Mts Systems CorporationMethod and systems for off-line control for simulation of coupled hybrid dynamic systems
GB2478134A (en)*2010-02-252011-08-31Micro Materials LtdProbe heating method and apparatus for testing materials
GB2478134B (en)*2010-02-252012-01-11Micro Materials LtdHeating in material testing apparatus
US20120060581A1 (en)*2010-09-142012-03-15Cliffs Natural Resources Inc.Compression test systems and methods
US8590392B2 (en)*2010-09-142013-11-26Cliffs Natural Resources Inc.Compression test systems and methods
CN104011525A (en)*2011-12-212014-08-27伊利诺斯工具制品有限公司Material testing apparatus and method
CN104011525B (en)*2011-12-212016-12-21伊利诺斯工具制品有限公司 Materials Testing Apparatus and Methods
GB2497804A (en)*2011-12-212013-06-26Illinois Tool WorksMaterial testing apparatus and method with temperature monitoring
US10107731B2 (en)2011-12-212018-10-23Illinois Tool Works Inc.Material testing apparatus and method
GB2497804B (en)*2011-12-212016-06-22Illinois Tool WorksMaterial testing with temperature feedback
WO2013096111A1 (en)2011-12-212013-06-27Illinois Tool Works Inc.Material testing apparatus and method
US10876930B2 (en)2013-09-092020-12-29Mts Systems CorporationMethods and systems for testing coupled hybrid dynamic systems
US10371601B2 (en)2013-09-092019-08-06Mts Systems CorporationMethods and systems for testing coupled hybrid dynamic systems
US10061278B2 (en)2013-09-092018-08-28Mts Systems CorporationMethod of off-line hybrid system assessment for test monitoring and modification
US10168263B2 (en)*2015-04-292019-01-01Shenzhen UniversityHandheld constant-stiffness ring shear apparatus and method for using same
US20170328824A1 (en)*2015-04-292017-11-16Shenzhen UniversityHandheld constant-stiffness ring shear apparatus and method for using same
CN104931360A (en)*2015-06-262015-09-23中国科学院地质与地球物理研究所Equipment for testing direct shear of large-scale earthworks under dynamic load
CN104931359A (en)*2015-06-262015-09-23中国科学院地质与地球物理研究所Large-scale earthwork shear strength tester
CN105115893A (en)*2015-09-232015-12-02长沙理工大学Steel bridge deck and pavement interface shear test method and device
CN109115633A (en)*2018-10-262019-01-01兰州理工大学A kind of asphalt layer room machine frictional strength test device and method
CN110208108A (en)*2019-04-242019-09-06南京航空航天大学A kind of single clamp suitable for high temperature declines dynamic fatigue experimental device
CN111595674A (en)*2020-05-222020-08-28合肥工业大学Device capable of loading various stress fields in sample and loading method
CN113295550A (en)*2021-02-082021-08-24四川大学Testing machine for mechanical testing of disturbed rock mass under deep ground environment
CN113484107A (en)*2021-05-202021-10-08扬州大学Special cutting device of Overlay test piece
WO2025111309A1 (en)*2023-11-212025-05-30Hyphen InnovationsPortable accelerated fatigue testing system
CN118734563A (en)*2024-06-182024-10-01华中科技大学 A prediction method for asphalt fatigue life at different frequencies

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